key: cord-0723163-qvetyp7z
authors: Tomietto, Marco; Simonetti, Valentina; Comparcini, Dania; Stefanizzi, Pasquale; Cicolini, Giancarlo
title: A large cross‐sectional survey of COVID‐19 vaccination willingness amongst healthcare students and professionals: Reveals generational patterns
date: 2022-03-17
journal: J Adv Nurs
DOI: 10.1111/jan.15222
sha: 12e10368b139a5a7d4eeed7094beb9e837fa2e5b
doc_id: 723163
cord_uid: qvetyp7z

AIMS: To determine coronavirus disease 2019 (COVID‐19) vaccination hesitancy in healthcare professionals and healthcare students in Italy across four generations (baby boomers, generations X, Y and Z). DESIGN: A cross‐sectional descriptive study was performed through an online survey conducted from May to June 2021. The STROBE guidelines were adopted for reporting. METHODS: Data were collected by initially sending a survey link to a convenience sample of healthcare professionals and students, which was followed by snowball sampling. The VAX scale was validated and adopted. An ANOVA was performed to detect differences in vaccine‐hesitancy beliefs between the four generational groups. RESULTS: The survey was completed by 1226 healthcare professionals and students. Worries about unforeseen future effects accounted for the higher vaccination hesitancy factor across generations. More positive attitudes towards COVID‐19 vaccination were expressed by members of generation Z than by members of generation Y and baby boomers. Members of generation X had the highest vaccination hesitancy scores in the overall scale. CONCLUSION: The results suggest that public health campaigns should take into account the generational differences in COVID‐19 vaccination hesitancy to achieve higher levels of vaccine acceptance, including amongst healthcare professionals and students. IMPACT: Vaccination is the most effective strategy to tackle the COVID‐19 pandemic. The advice of health professionals strongly influences vaccination willingness in the general population. A consideration of the generational patterns in the COVID‐19 vaccination hesitancy of healthcare workers and students may increase vaccination uptake in these populations, which in turn may lead to greater public acceptance of the vaccine.

The novel coronavirus severe acute respiratory syndromecoronavirus-2 (SARS-CoV-2), which causes coronavirus disease 2019 (COVID-19) disease, was first described in December 2019. By

March 2020, the World Health Organization (WHO) had declared a pandemic (WHO, 2020) . To combat the spread of infection, governments and healthcare systems worldwide initially adopted several non-pharmacological measures, such as social distancing, suspension or modification of working activities, restricted movement and the obligatory use of facial masks . To conserve medical resources, patients with mild disease were managed at home and those with severe disease in the hospital. New therapeutic protocols (antiviral therapies, immune modulators, anticoagulants, monoclonal antibodies and hyperimmune globulin) were also employed to treat disease severity or to prevent disease progression. However, none of these measures was particularly effective and the urgent need for a vaccine was quickly recognized (Mathieu et al., 2021) .

Globally, as of 30 November 2021, there have been 261,435,768 confirmed cases of COVID-19, including 5,207,634 deaths. Over 4.28 billion people worldwide, corresponding to ~55.8% of the world population, have received at least one dose of a COVID-19 vaccine (World Health Organization [WHO] , 2021), albeit with large differences amongst countries (Mathieu et al., 2021) . The experience thus far has shown that vaccination against SARS-CoV-2 can mitigate COVID-19 severity and it is expected that it will flatten, delay or prevent future epidemic waves of the disease.

Although both the safety and the effectiveness of vaccination against SARS-CoV-2 are universally recognized (Center for Disease Control and Prevention [CDC] , 2021) and countries worldwide are striving to achieve COVID-19 immunity in their populations, vaccination hesitancy remains a major obstacle both in the general population (Bhagianadh & Arora, 2021) and amongst healthcare workers and students (Holzmann-Littig et al., 2021) . The reasons include concerns about vaccine safety, a lack of trust in the government or the healthcare system and a suspicion of profiteering by pharmaceutical companies (Normura et al., 2021) . These attitudes have been supported by the rapid dissemination of fake news about the risks of vaccination. Fake news is defined as "fabricated information that imitates news media content in form but not in organizational process or intent, which overlaps with other information disorders, such as misinformation-false or misleading information-and disinformation, which is false information that is deliberately disseminated to deceive people" (Lazer et al., 2018) .

The problem is compounded by the fact that fake news spreads faster and is more highly entrenched than real news, facilitated by the rapid propagation of information, regardless of its source or quality, by social media. The WHO (2020) has defined this overabundance of information as an "infodemic" that is spreading fear, uncertainty and anxiety with respect to health-related behaviours. During the pandemic, it has resulted in a fragmented response that has hampered pandemic containment strategies.

Public health measures adopted to stop the spread of the virus have been paralleled by the spread of various conspiracy theories (European Commission, 2020) that have not only encouraged a general distrust of healthcare systems but have also led to a robust anti-vaccine movement and in some instances to violent demonstrations, all of which have hampered efforts to achieve global immunization (Herrera-Peco et al., 2021) .

Vaccine hesitancy on the part of healthcare workers (HCWs) has a far-reaching impact. For ethical and scientific reasons, this group should be promoters of vaccination (Squeri et al., 2017) , given their interest in protecting both their patients and the global community.

However, vaccination amongst HCWs has always been a controversial issue: for example, the coverage rate in HCWs for seasonal influenza vaccination in European countries from 2015 to 2018 was <40% and in Italy, it was <20% (ECDC, 2018).

In the US, only one-third of HCWs were willing to be vaccinated with the COVID-19 vaccine as soon as it became available, prior to its Emergency Use Authorization (EUA), with a majority choosing to wait several months before deciding (Shekhar et al., 2021) . Another study suggested that being a nondoctor healthcare personnel (i.e. nurse/midwife) was an independent risk factor for refusing or postponing COVID-19 vaccination, with the most common reasons for these decisions being doubt about the efficacy of the vaccine, distrust of its content, and a fear of side effects (Kara Esen et al., 2021) .

Vaccine hesitancy in HCWs is an important issue due to its potential consequences for the HCWs themselves and because higher patient mortality rates were reported in hospitals with a lower percentage of vaccinated employees. In response, countries such as the US, Canada, Australia and the UK have implemented policies whereby certain vaccinations are a legal requirement for HCWs. In Italy, a law was passed in April 2021 requiring that all HCWs be vaccinated against COVID-19 or face unpaid suspension from work. The law is in effect until 31 December 2021, and it also includes healthcare students participating in clinical placements. In the case of COVID-19 vaccination, physicians and nurses in some countries have been suspended from hospital practice. These actions have been supported by the European Court of Human Rights in Strasbourg, which ruled that obligatory vaccination does not contravene the European Convention on Human Rights (Ważyńska-Finck, 2021) .

In this study, we examined whether vaccine hesitancy amongst healthcare professionals and students is related to generational differences. Our study draws on recent work by Nomura et al. (2021) , who showed that a public health campaign specifically targeting individuals with vaccine hesitancy may help to increase COVID-19 vaccine uptake. We hypothesized that a generation-specific approach, by building on the cultural experiences, attitudes, values and beliefs shared by a particular age group (Senyuva, 2018), would be effective in addressing COVID-19 vaccine hesitancy amongst HCWs and healthcare students and thus in promoting vaccine uptake by this population. (2) generation X prioritizes a work-life balance; (3) generation Y is innovation-oriented and values change over stability; (4) generation Z is the first fully native digital generation and it has intensively integrated social media into everyday life (Schmitt and Lancaster, 2019) . Our hypothesis is based on the assumption that these generational differences affect vaccination hesitancy, such that generational differences in professional and work-related attitudes, values and beliefs should be considered in vaccination campaigns the healthcare professionals and students are exposed in taking care of vulnerable people and vaccination is supposed to contribute to patient safety at the individual and the organizational level. Furthermore, the impact of the current COVID-19-related "infodemic" may differ in different generations. Thus, in this study, healthcare professionals and students in Italy distributed across four generations were assessed for their attitudes towards COVID-19 vaccination.

The aim of this study was to reveal possible generational differences in attitudes towards COVID-19 vaccination in HCWs and healthcare students in Italy.

A cross-sectional, descriptive study was performed from May to June 2021, through an online survey of HCWs and healthcare students in Italy. The study period coincided with the third wave of the COVID-19 pandemic. The STrengthering the Reporting of Observational studies in Epidemiology (STROBE) guidelines were adopted for reporting.

Healthcare professionals and students were recruited in a convenience sampling approach, via formal and informal networks throughout Italy. The online survey was initially disseminated in healthcare professionals' and students' associations and social networks groups at the national level. Snowball sampling contributed to the further dissemination of the survey amongst the target population.

Participants were categorized into generations according to the following criteria, drawn from the literature: BB participants were born between 1946 and 1964; generation X participants between 1965 and 1980, generation Y participants between 1981 and 1996, and generation Z participants after 1997 (Schmitt & Lancaster, 2019).

Data were collected in an online survey approach implemented in LimeSurvey. To prevent inappropriate access, a CAPTCHA system was adopted to prevent inappropriate accesses: in detail participants were asked to report the sum score of a basic operation, thus confirming that the participant was human and not an Internet bot. A cookies recording system was also adopted to prevent duplicated or multiple imputations from the same user's device.

Data collection and analysis were designed to ensure data confidentiality and were conducted in accordance with national and European laws (EU, 2018/1725) and the Personal Data Act (523/1999). The electronic data were saved in a protected folder, accessible only by the principal investigator. The survey platform was protected by a strong-recognized password and a two-step authentication method.

On the first screen of the survey, participants were shown a statement that included details of the study and data handling. Survey submission was interpreted as the participant's consent. Due to the type of data collected and the online data collection approach, neither ethics approval nor administrative permissions were necessary. 

The VAX scale consists of 12 items rated on a Likert scale of agreement, ranging from one (strongly disagree) to seven (strongly agree; Martin & Petrie, 2017) . In this study, it was used with respect to COVID-19 vaccination. The 4-factors model was based on previous psychometric testing and included: mistrust of vaccine benefit (3 items); worries about unforeseen future effects (3 items); concerns about commercial profiteering (3 items); and preference for natural immunity (3 items; Martin & Petrie, 2017) . Lower scores were considered to reflect a more positive attitude towards the vaccine. The 'mistrust of vaccine benefit' factor was defined as the reversed score of the following items: 'I feel safe after being vaccinated', 'I can rely on vaccines to stop serious infectious diseases' and 'I feel protected after getting vaccinated'.

Socio-demographic, work-related (i.e. work or placement in a COVID area) and health-related (COVID infection exposure) data were collected to further describe the sample (see Supporting Information S1).

The data were analysed using Stata v12 (StataCorp., 2011).

Multivariate outliers were checked by adopting the "bacon" package in Stata v12. Descriptive statistics were calculated to describe the sample. VAX scale scores were calculated as the mean and standard deviation (SD) for the total scale and each factor. Statistical differences were detected by performing an ANOVA for the VAX scale and its factors by generation. Statistical significance was defined as a p < .05. The survey was designed such that answers were mandatory for all items of the VAX scale, while, the socio-demographic was not mandatory; missing data management was not necessary.

For a confirmatory factor analysis (CFA), a participant to parameter ratio ranging from 10:1 to 20:1 is recommended (Kline, 2015) .

Accordingly, the required sample size was between 120 and 240 participants. Thus, to detect a statistically significant difference amongst the four generational groups based on an ANOVA and by considering an alpha error of 0.05 and a power of 0.99, the minimum sample size for our study was 384 participants. The third independent researcher stated the content equivalence of the two versions and, therefore, the content validity of the Italian translation as well.

Cronbach's alpha was adopted to test instrument reliability. Values validity. Those indices are considered acceptable for a RMSEA (root mean square error of approximation) and SRMR (standardized root mean residual) <0.08, and based on a CFI (comparative fit index) and TLI (Tucker-Lewis Index) >0.90 (Kline, 2015) .

The survey questionnaire was completed by 1226 healthcare students and healthcare professionals. The majority were female (75.5%; 926/1226) and the mean age was 30.1 years (SD = 12.42; median = 24; min = 20; max = 70). Healthcare students comprised 58.0% of the sample (711/1226) and healthcare professionals the remainder. Amongst the former, most were nursing students (84.4%; 600/711); 15.6% included students in medicine, dentistry, psychology, pharmacy, or technical areas (e.g. lab or X-ray technicians).

Healthcare professionals made up 42.0% (515/1226) of the study population; the majority were nurses (430/515, 83.5%) and the others either physicians or technicians (e.g. lab or X-ray technicians).

According to the generational distribution, 4.9% (60/1226) For 25% of the sample, the score was below 2.17 (Q1) and for 25% it was over 3.25 (Q3). The overall mean score of the factor 'mistrust of vaccine benefit' was 1.92 (SD = 0.97; median = 1.67; min = 1; max7).

For 25% of the sample, the score was below 1.33 (Q1) and for 25% it was over 2.00 (Q3). The mean score of the factor 'worries about unforeseen future effects' was 4.31 (SD = 1.29, median = 4.33; min = 1; max = 7). For 25% of the sample, the score was below 2.67 (Q1) and for 25% it was over 5.33 (Q3). The mean score of 'concerns about commercial profiteering' was 2.14 (SD = 1.26; median = 1.67; min = 1; max = 7). For 25% of the sample, the score was below 1.00 (Q1) and for 25% it was over 2.67 (Q3). The mean score of the 'preference for natural immunity' factor was 2.73 (SD = 1.30; median = 2.67; min = 1; max = 7). For 25% of the sample, the score was below 1.67 (Q1) and for 25% it was over 3.67 (Q3).

Amongst the four studied generations, generation Z had the lowest score in the overall VAX scale and thus a highly positive attitude towards COVID-19 vaccination (mean = 2.62; SD = 0.79; median = 2.50; min = 1; max = 7; Q1 = 2.08; Q3 = 3.00). The highest score and thus the most negative attitude towards vaccination was that of generation X (mean = 3.00; SD = 1.04; median = 2.83; min = 1; max = 7; Q1 = 2.33; Q3 = 3.58). The difference between these generations was statistically significant (F = 13.32, p < .001).

The same pattern was detected when the generations were compared for each factor; the differences in the mean scores were statistically significant. The factor 'worries about unforseen future effects' consistently had the highest score, ranging between a mean of 4.15 (SD = 1.20; median = 4.33; min = 1; max = 7; Q1 = 3.33; Q3 = 5.00) in the generation Z group and a mean of 4.59 (SD = 1.32; median = 4.67; min = 1; max = 7; Q1 = 4.00; Q3 = 5.33) in the generation X group. The scores for the factor 'preference for natural immunity' were similar for BB, generation X, and generation Y: 2.92 (SD = 1.28; median = 2.83; min = 1; max = 7; Q1 = 2.00; Q3 = 3.67), 2.89 (SD = 1.37; median = 2.67; min = 1; max = 7; Q1 = 2.00; Q3 = 4.00), and 2.87 (SD = 1.41; median = 2.67; min = 1; max = 7; Q1 = 2.00; Q3 = 3.83), respectively. Overall, the differences in the scores of generation X were higher and those of generation Z lower than the scores of BB and generation Y. The mean scores and inferential statistics are reported in Table 2 .

Given the differences in the generational distribution of healthcare students vs. healthcare professionals, the data of the two groups were analysed separately.

Amongst healthcare professionals, generation Z participants had a more positive (mean = 2.48; SD = 0.67) and generation Y a more negative attitude (mean = 2.98; SD = 1.06) towards vaccination, whilst amongst healthcare students the highest score, indicating the most negative attitude, was that of the two BB members (mean = 3.41; SD = 0.35). The mean of the VAX scale total score differed significantly for both healthcare professionals (p = .008) Bold values indicate statistically significant results. and healthcare students (p = .007). Statistically significant generational differences were also detected amongst healthcare students for the factors 'mistrust of vaccine benefit' (p < .001) and 'worries about unforeseen future effects' (p = .036), and amongst healthcare professionals for the factors 'mistrust of vaccine benefit' (p = .022)

and 'concerns about commercial profiteering' (p = .015). The mean scores and results of the statistical analyses for the two groups are reported in Tables 3 and 4 .

This is the first study to explore generational differences in the hesitancy of healthcare professionals and students in Italy about vaccination against COVID-19. Overall, our findings revealed a high vaccine hesitancy across all four studied generations, largely due to concerns about unforeseen future effects. Previous studies found that vaccine safety issues were the most important determinant of COVID-19 vaccine hesitancy in HCWs (Li et al., 2021; ) , college students (Salerno et al., 2021) and the general population (Reiter et al., 2020) . Possible explanations for the concerns of HCWs are:

(1) misinformation transmitted on social media, (2) limited resources, increased workload and (3) inadequate information on the risks or benefits of the vaccine (Paterson et al., 2016) .

Our identification of these concerns and their sources suggests strategies for addressing vaccine hesitancy in healthcare professionals and students, including a greater focus on the long-term safety of the vaccine that draws on scientific evidence. Building confidence in vaccines, and their efficacy and safety, in particular, may, in turn, contribute to both groups recommending the vaccine to others. A previous study showed that the advice of HCWs is highly trusted by their patients, including with respect to vaccination, especially if they themselves have been vaccinated or intend to be vaccinated (Paterson et al., 2016) . HCWs were shown to act as role models for the population and to have a positive influence on patients' vaccination attitudes (Burden et al., 2021) . Vaccinated HCWs are more likely to recommend vaccination to patients and, in general, to others, whereas doubtful or hesitant HCWs may be reluctant to recommend vaccination to either their patients or members of their community.

In the development of efforts to increase the acceptability of the COVID-19 vaccine, several factors must be taken into account, including contextual influences, vaccine-specific issues, individual/ social group influences and personal values, as all of these will guide and visible leader support (Paterson et al., 2016) . However, given the many possible forms of active vaccine advocacy, an assessment of generational differences in vaccine acceptance can shed light on the strategies most likely to increase the COVID-19 vaccination rate in healthcare professionals and healthcare students.

Our study identified a more positive attitude towards COVID-19 vaccination in generation Z than in the other generations. Generation Z was also the youngest generation in our study and its willingness to be vaccinated may be related to a desire for an active social life, freedom of daily movement, and travel. In addition, as a digitally savvy generation, generation Z may be less susceptible to fake news and thus better able to recognize reliable information about vaccination.

As future healthcare providers, healthcare students generally have a high level of e-Health literacy and are therefore skilled in locating, using, and critically appraising health information online, which in turn would improve their competency in decision-making.

However, whilst students may be confident in obtaining information on the internet, they often lack the knowledge needed to make decisions about their own health options. This point deserves attention as previous studies have pointed out that vaccine acceptance and knowledge are closely related, thus emphasizing the key role of correct information in countering vaccination hesitancy (Gallè et al., 2021) .

A positive attitude towards COVID-19 vaccination was also identified in generation Y, consistent with the openness of this generation to innovation and change, especially as 'the first generation of digital natives' (Palfrey & Gasser, 2008) . Generation Y is characterized by a high level of confidence in using e-Health information, a recognition of reliable online resources, experience in working in healthcare settings, and a high degree of professionalism, all of which lead to balanced health-related decision-making.

The attitude of BB to COVID-19 vaccination was better than that of generation X or Y, in line with the work ethic, orientation towards the common good, and the strong sense of social responsibility that distinguishes this older generation (Senyuva, 2018) . The general lack of digital competency of BB is compensated by a high level of institutional commitment, including with respect to vaccination. In previous studies, increasing age was identified as an independent predictor of vaccination acceptance), perhaps because older age is also associated with a high risk of comorbidities, resulting in a higher risk tolerance by BB than by HCWs in younger age groups.

Vaccination willingness in generation X was between that of BB and generation Y. Members of generation X, while digitally competent, lack institutional commitment, are more oriented to independent work, and have a general resistance to authority (Schmitt & Lancaster, 2019) . These characteristics are consistent with our finding of higher vaccine hesitancy in this group. 

While generational differences in work environments have been examined in many studies, to our knowledge, this is the first study to examine intergenerational differences in healthcare professionals and students with respect to COVID-19 vaccination. A particular strength of this study was the large sample, obtained by employing a mixed approach to sampling and survey dissemination.

Nonetheless, the limitations of the study must also be noted.

First of all, because the survey was online-based, those population groups less likely to engage in online communication and/or to have less access to the internet may have been under-represented.

Furthermore, self-selection bias must be considered, as healthcare professionals and students with a greater propensity to be vaccinated might have been more likely to participate. Also, due to the cross-sectional design of the study, differences amongst groups, but not their causal relationships, were identified. Finally, our quantitative approach may have missed some aspects of the attitudes, values and beliefs about vaccination against COVID-19: these might be better understood in a qualitative approach.

Addressing the generational differences in attitudes, values and beliefs that lead to vaccine hesitancy in HCWs and healthcare students may contribute to generationally tailored COVID-19 vaccination campaigns and thus potentially to increased vaccination uptake amongst reluctant groups. Vaccine hesitancy in the healthcare community may best be overcome through vaccination campaigns that directly address the long-term safety of the vaccine, based on scientific evidence. However, the vaccination-related concerns of BB and members of generations Y and Z were shown to differ from those of generation X. Recognition of these differences in the development of effective information and educational strategies could help institutions to achieve higher levels of vaccine uptake amongst healthcare professionals and students.

We thank Sara Conchedda, Silvia Di Fabio and the Nursing Program

Directors of the Faculty of Medicine and Surgery-Politecnica delle Marche University (Italy), for their effort in data collection.

The authors have no conflict of interests to declare. 

The peer review history for this article is available at https://publo ns.com/publo n/10.1111/jan.15222.

Research data are not shared. 

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